Binding of polarons and atoms at threshold
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Publication:443956
DOI10.1007/s00220-012-1436-9zbMath1250.82046arXiv1106.0729OpenAlexW3105320453MaRDI QIDQ443956
Rupert L. Frank, Robert Seiringer, Elliott H. Lieb
Publication date: 13 August 2012
Published in: Communications in Mathematical Physics (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1106.0729
Related Items
Symmetry of bipolaron bound states for small Coulomb repulsion ⋮ Monotonicity of the polaron energy. II: General theory of operator monotonicity ⋮ Tosio Kato's work on non-relativistic quantum mechanics. I ⋮ EXISTENCE OF GROUND STATES FOR NEGATIVE IONS AT THE BINDING THRESHOLD ⋮ Monotonicity of the polaron energy ⋮ Tosio Kato’s work on non-relativistic quantum mechanics, Part 2 ⋮ Ground state of the polaron hydrogenic atom in a strong magnetic field ⋮ Bound states at threshold resulting from Coulomb repulsion ⋮ On the modeling of interactions between polarons in quantum cristals
Cites Work
- Geometric methods for nonlinear many-body quantum systems
- Stability and absence of binding for multi-polaron systems
- Bounds on the minimal energy of translation invariant \(N\)-polaron systems
- Exact ground state energy of the strong-coupling polaron
- The bipolaron in the strong coupling limit
- Asymptotics for the polaron
- The Stability of Matter in Quantum Mechanics
- A multiparticle Coulomb system with bound state at threshold
- Absence of an L2-eigenfunction at the bottom of the spectrum of the Hamiltonian of the hydrogen negative ion in the triplet S-sector
- Exact asymptotic behavior of the Pekar–Tomasevich functional
- Ground states in non-relativistic quantum electrodynamics.
